A shroud is provided for a dynamoelectric device such as an electric motor comprising a rotor and a wire wound stator, where the shroud fully contains the end turns of the stator wire windings, provides terminal connections for winding leads, and includes a circuitry compartment to house a temperature and current protective device.
|
8. A dynamoelectric device comprising:
a stator having a center bore with a center axis extending between axially opposite ends of the stator, a plurality of stator poles circumferentially spaced around the center bore, the stator poles having wiring wrapped in windings around the stator poles and the windings having end turns arranged around the stator center bore at the axially opposite ends of the stator; a shroud attached to one of the ends of the stator, the shroud extending around the stator center bore and having a generally u-shaped cross section that covers over the end turns of the windings; a terminal container being integrally molded with the shroud and the windings having leads that are mounted in the terminal container; and, a plurality of posts project axially from the shroud to positions between adjacent stator poles.
19. An apparatus for containing end turns of a stator winding at one end of a plurality of stator poles and away from a center bore surrounded by the plurality of stator poles, the apparatus comprising:
an annular shroud that is dimensioned to fit against the one end of the plurality of stator poles, the shroud having a center opening that is at least as large as the stator center bore, the shroud having a generally u-shaped cross-section and an interior volume that receives the end of the stator winding therein when the shroud is fit against the one end of the plurality of stator poles; and a circuitry compartment being integrally molded with the shroud, the circuitry compartment having at least one shoulder inside the circuitry compartment providing a seating surface for a sensing device of the stator when the shroud is fit against the one end of the plurality of stator poles.
1. A dynamoelectric device comprising:
a stator having a center bore with a center axis extending between axially opposite ends of the stator, a plurality of stator poles circumferentially spaced around the center bore, the stator poles having wiring wrapped in windings around the stator poles and the windings having end turns arranged around the stator center bore at the axially opposite ends of the stator; a shroud attached to one of the ends of the stator, the shroud extending around the stator center bore and having a generally u-shaped cross section that covers over the end turns of the windings; a terminal container being integrally molded with the shroud and the windings having leads that are mounted in the terminal container and a terminal container top removably attached to the terminal container and covering over the winding leads contained in the terminal container.
6. A dynamoelectric device comprising:
a stator having a center bore with a center axis extending between axially opposite ends of the stator, a plurality of stator poles circumferentially spaced around the center bore, the stator poles having wiring wrapped in windings around the stator poles and the windings having end turns arranged around the stator center bore at the axially opposite ends of the stator; a shroud attached to one of the ends of the stator, the shroud extending around the stator center bore and having a generally u-shaped cross section that covers over the end turns of the windings; a terminal container being integrally molded with the shroud and the windings having leads that are mounted in the terminal container; and, a compartment is molded in the shroud and a protector that limits current in the windings and a temperature of the windings is mounted in the compartment.
10. An apparatus for containing end turns of a stator winding at one end of a plurality of stator poles and away from a center bore surrounded by the plurality of stator poles, the apparatus comprising:
an annular shroud that is dimensioned to fit against the one end of the plurality of stator poles, the shroud having a center opening that is at least as large as the stator center bore, the shroud having a generally u-shaped cross-section and an interior volume that receives the end turns of the stator winding therein when the shround is fit against the one end of the plurality of stator poles; a terminal container being integrally molded with the shroud, the terminal container having at least one mount to receive a lead of the stator winding when the shroud is fit against the one end of the plurality of stator poles and a terminal container top removably attachable to the terminal container to cover over the winding lead received in the terminal container.
15. An apparatus for containing end turns of a stator winding at one end of a plurality of stator poles and away from a center bore surrounded by the plurality of stator poles, the apparatus comprising:
an annular shroud that is dimensioned to fit against the one end of the plurality of stator poles, the shroud having a center opening that is at least as large as the stator center bore, the shroud having a generally u-shaped cross-section and an interior volume that receives the end turns of the stator winding therein when the shroud is fit against the one end of the plurality of stator poles; a terminal container being integrally molded with the shroud, the terminal container having at least one mount to receive a lead of the stator winding when the shroud is fit against the one end of the plurality of stator poles; and, a protector compartment is attached to the shroud and is dimensioned to receive a protector that limits current in the stator windings and a temperature of the stator windings.
17. An apparatus for containing end turns of a stator winding at one end of a plurality of stator poles and away from a center bore surrounded by the plurality of stator poles, the apparatus comprising:
an annular shroud that is dimensioned to fit against the one end of the plurality of stator poles, the shroud having a center opening that is at least as large as the stator center bore, the shroud having a generally u-shaped cross-section and an interior volume that receives the end turns of the stator winding therein when the shroud is fit against the one end of the plurality of stator poles; a terminal container being integrally molded with the shroud, the terminal container having at least one mount to receive a lead of the stator winding when the shroud is fit against the one end of the plurality of stator poles; and, a plurality of posts project from the shroud in positions on the shroud that will position each post between adjacent stator poles of the plurality of stator poles when the shroud is fit against the one end of the plurality of stator poles.
2. The dynamoelectric device of
the shroud has a cylindrical inner wall, a cylindrical outer wall spaced radially outward from the inner wall, and an annular end wall that extends between the inner wall and the outer wall, the relative positions of the inner wall, outer wall and end wall giving the shroud its generally u-shaped cross-section.
3. The dynamoelectric device of
the inner wall, outer wall and end wall are connected together as one monolithic piece.
4. The dynamoelectric device of
the shroud and the terminal container are one monolithic piece.
5. The dynamoelectric device of
a housing contains the stator and the terminal container projects outward from the shroud to a position outside the housing.
7. The dynamoelectric device of
the shroud and the compartment are one monolithic piece.
9. The dynamoelectric device of
the shroud and the plurality of posts are one monolithic piece.
11. The apparatus of
the shroud has a cylindrical inner wall around the center opening and a cylindrical outer wall that is spaced radially outward from the inner wall, the inner wall and outer wall receiving the end turns of the stator winding therebetween when the shroud is fit against the one end of the plurality of stator poles.
12. The apparatus of
an annular end wall extends between the inner wall and the outer wall and together with the inner wall and outer wall gives the shroud its generally u-shaped cross section.
13. The apparatus of
the inner wall, outer wall and end wall are connected together as one monolithic piece.
14. The apparatus of
the shroud and the terminal container are one monolithic piece.
16. The apparatus of
the shroud and the protector container are one monolithic piece.
18. The apparatus of
the shroud and the plurality of posts are one monolithic piece.
20. The apparatus of
the circuitry compartment is dimensioned to receive a protector of the stator that limits current in the stator windings and a temperature of the stator windings.
21. The apparatus of
the shroud has a cylindrical inner wall around the center opening and a cylindrical outer wall that is spaced radially outward from the inner wall, the inner wall and the outer wall receiving the end turns of the stator winding therebetween when the shroud is fit against the one end of the plurality of stator poles.
22. The apparatus of
an annular end wall extends between the inner wall and the outer wall and together with the inner wall and outer wall gives the shroud its generally u-shaped cross-section and the circuitry compartment is integrally molded with the shroud end wall.
|
This application is a continuation of application Ser. No. 09/422,831, filed Oct. 21, 1999, now pending.
(1) Field of the Invention
This invention relates generally to dynamoelectric devices, such as electric motors, and more particularly to the stator construction of the device where the stator assembly consists of a stator having a center bore with a plurality of stator poles circumferentially spaced around the center bore. The stator poles have wiring wrapped in windings around the stator poles and the windings have end turns arranged around the stator center bore at axially opposite sides of the stator. The end turns of the windings are laced and manually positioned at opposite ends of the stator to prevent their interference with the rotor assembly in the stator center bore, the motor housing, and/or with the end plates of the motor housing.
(2) Description of the Related Art
In a traditional dynamoelectric device such as a motor, the stator consists of a plurality of stator poles surrounding a rotor. Devices like this are well known in the art, and one is shown generally in FIG. 1. Because such devices are well known, their assembly is only generally discussed here. The stator can be a collection of individual poles as in a segmented stator, or can be formed together as a single unit. As shown in
End turns 16 of the wire windings 14 are created at both axial ends of each stator pole. At times windings are formed with the end turns 16 positioned at an axial distance from the opposite ends of the stator pole 10 to provide a smooth transition as they wrap around the end of the stator pole from one channel to the other channel. At this distance from the stator pole, the end turns are grouped and bound together with laces 18. Grouping wire windings 14 with laces 18 prevents the wire windings from interfering with subsequent assembly operations. Generally, materials such as insulated tape or common nylon electrical tie wraps are used as laces 18. After winding, the stator assembly is assembled into a housing 20, a rotor assembly (not shown) is inserted into the stator center bore, and end plates or end bells (not shown) are assembled over the opposite ends of the housing with the rotor shaft supported by bearings in each of the end plates.
There are many methods of motor construction, and the method described herein and shown in
This method of stator construction has many shortcomings. Lacing the end turns 16 and grouping the winding leads 24 is a manually intensive operation, requiring significant manipulation of the wire windings. The manipulation of wire windings 14 causes quality problems. Moreover, the process of generating winding leads 24 and installing winding lead connectors adds assembly time to motor manufacturing.
Misplaced end turns 16 and wire windings 14 can compromise conductivity in the stator assembly 22. As the end turns 16 are manually positioned to clear areas adjacent to the stator poles 10 for the housing 20, the rotor assembly, or end plate installation, grounding of the wire windings can occur. Generally, the wound stator poles 10 are press fit into the housing 20. During this operation, loose winding wires can be accidentally crimped or damaged against the housing 20. End plates (not shown) are often mechanically fastened to the housing 20. Similarly, during this phase of motor construction, loose winding wires can be accidentally crimped or damaged when the end plates are bolted to the housing. When the rotor assembly (not shown) is installed into the stator assembly bore it is critical that the wire windings 14 and end turns 16 do not foul the interface or air gap between the rotor assembly and the stator assembly bore. Often rotor assembly installation is a blind installation, where the end plates obscure viewing of the rotor assembly. It is important that the wire windings and end turns clear the rotor and shaft of the rotor assembly and the bearing assemblies to be fitted thereon.
Protective sealant is applied to the stator assembly 22 and housing to prevent humidity from damaging the wire windings 14 when the motor is de-energized after a period of operation. The protective sealant also provides electrical insulation for the wire windings 14 from other components and debris. This sealant can become cracked if manual manipulation of the end turns 16 and wire windings 14 is needed when the stator assembly 22 is assembled with the housing, the end shields, and the rotor assembly.
Generation of the winding leads 24 is another manual operation required when winding the stator poles. Winding leads 24 must be properly sized in length after winding to allow proper connection to switching devices outside the stator assembly. The winding leads 24 must be specially marked for terminal points, which vary depending upon customer requirements and motor configuration. The length of the winding leads 24 must be sufficient to allow connection to the terminal points, and the ends of the winding leads 24 must be fitted with connectors. These connectors must be specifically configured for the specific terminal point and connector style required for the customer application. Often, winding leads 24 and connectors are color coded to assist assembly personnel in making proper connections. In the prior art mechanical connectors and shrink caps on winding leads 24 have been used to provide connections to terminal points. However, the preparation of winding leads 24 in this manner creates non-standard interfaces for motor construction. This creates inflexibility in the manufacturing lines and slows overall motor production rates.
The winding leads 24 and the connectors attached thereon are frequently used during inspection and testing. Manual connection and disconnection at these points during this phase of the manufacturing process is also labor-intensive. Quality can be compromised as protective sealant is sometimes damaged from the areas of the leads where connection and re-connection was made.
The problems set forth above could be overcome by a device that attaches to the stator assembly 22 of the motor and contains the winding leads 24 and end turns 16 therein, thus eliminating manual lacing of the winding end turns. The device would also have a terminal container to provide uniform connector styles for winding leads. Additionally, the device would be provided with a compartment for housing protectors such as temperature and current overload circuitry.
The shortcomings of the prior art of
The apparatus of the invention comprises a generally circular shroud that has a "U" shaped cross-section. In the preferred embodiment, the shroud is molded of an insulating plastic, although other materials may be used. The cross section is shaped to entirely contain the end turns and winding leads. The shroud is connected to an axial end of the stator assembly by means of stator slot posts, which are press fit into slots created by adjacent stator poles. Molded to the shroud is a terminal container to which the winding leads are attached. Molded into the shroud is a circuitry compartment that houses current and temperature sensing devices. Above the circuitry compartment is a protector cover to hold the temperature and current sensing devices inside the circuitry compartment. Across the protector cover is a clamp that holds the protector cover to the shroud.
The shroud can be fitted to both axially opposite ends of the stator assembly. When a shroud is fitted to both ends of the stator assembly, it is possible one shroud may be constructed without the terminal container, circuitry compartment, or protector cover.
Further objectives and features of the invention are revealed in the following detailed description of the preferred embodiment of the invention and in the drawing figures wherein:
In
In
In
In the shroud, in the area adjacent to the terminal container 26, a terminal container arcuate slot 54 is provided in the end wall 40. The terminal container arcuate slot 54 provides an opening for assembly operators to connect the winding leads 24 of
The circuitry compartment 30 is molded into the shroud 25 as a rectangular slot in the end wall 40. Positioned above the circuitry compartment 30 is a protector cover 31. The protector cover is a resilient member that has an "L"-shaped cross-section as seen in FIG. 2. The "L"-shaped cross section permits the protector cover 31 to span over the circuitry compartment 30 in a radial direction across the end wall 40. With the protector cover 31 having a "L"-shaped cross section, the portion of the cover that spans over the circuitry compartment 30 can be resiliently flexed away from the circuitry compartment a short distance to permit insertion of the protective temperature and current limiting devices in the circuitry compartment. The protector cover 30 is firmly attached to the shroud 25 at the interface of the inner wall 38 and the end wall 40 so as to form an integral unit with the shroud 25. At the interface of the outer wall 36 and the end wall 40, the edge of the protector cover 31 is suspended above the end wall and the circuitry compartment 30. The edge of the protector cover 31 is provided with a lip 56 that engages a side of the protector device 58 and holds it in place. As a rectangular slot in the end wall 40, the circuitry compartment 30 provides communication between the exterior surface of the end wall 40 and the annular channel 42.
As shown in
To ensure the positive location of the contents of the circuitry compartment 30, a clamp 32 is used to hold down the suspended edge of the protector cover 31. The clamp 32 is configured in a general "U"-shape and is fully detachable from the shroud 25. The clamp 32 has a hook 62 on one end used to anchor the clamp to the shroud at the exposed edge of the inner wall 38. On the other end, the clamp 32 is configured with a series of barbs 64 that enable the clamp to be anchored to the exposed edge of the outer wall 36.
In
While the present invention has been described by reference to a specific embodiment, it should be understood that modifications and variations of the invention may be constructed without departing from the scope of the invention defined in the following claims.
Rassoolkhani, Payman, Sheeran, Kent
Patent | Priority | Assignee | Title |
10027197, | Aug 08 2014 | Toyota Jidosha Kabushiki Kaisha | Stator for rotary electric machine |
10381894, | Jul 09 2015 | Toyota Jidosha Kabushiki Kaisha | Stator end coil retainer member elastically press end coil against the stator core |
6554230, | Mar 18 2002 | Siemens VDO Automotive Inc | Engine cooling shroud having lead trough and motor lead wire locator associated with lead trough |
6590309, | Sep 30 1999 | Reliance Electric Company | Stator assembly for an electromechanical machine |
6648613, | Dec 11 2001 | Ametek, Inc. | Fan blower assembly with one-piece air diffuser and bayonet-style end cap |
6747380, | Feb 01 2000 | SAIA-BURGESS OZD HUNGARY KFT; SAIA-BURGESS OZD KFT | Direct winding wire to external conductor connected multi-phase motor |
6841904, | Apr 03 2002 | MINEBEA MITSUMI INC | Resolver terminal attachment structure |
7164217, | Aug 29 2002 | Honda Giken Kogyo Kabushiki Kaisha | Lead frame and distributing part using same |
7270577, | Aug 18 2004 | Delta Electronics, Inc. | Connector module and motor utilizing the same |
7329973, | Aug 17 2005 | Sanyo Denki Co., Ltd. | Rotary electric machine |
7342334, | Oct 29 2004 | Nidec Motor Corporation | Insulated stator with wire routing element |
7696660, | Sep 05 2006 | Sanyo Denki Co., Ltd. | Stator for rotary electric machine |
8400031, | Mar 11 2008 | Robert Bosch GmbH | Electrical connection for an electric motor |
8487491, | Oct 20 2010 | Robert Bosch GmbH | Insulating retaining element for phase potential bars |
8836184, | Sep 20 2010 | HANON SYSTEMS | Compressor for vehicle |
9093876, | Mar 01 2011 | BAKER HUGHES HOLDINGS LLC | Systems and methods for configuring stators of downhole electric motors |
9473003, | Apr 22 2014 | Mitsubishi Electric Corporation | Rotary electric machine for vehicle |
Patent | Priority | Assignee | Title |
3002119, | |||
3483392, | |||
3772544, | |||
3984712, | Nov 11 1974 | Advanced Machine & Tool Corporation | End turn shield and winding connector |
4061935, | Jan 05 1976 | Tecumseh Products Company (Compressor) | Overload protector mounting apparatus |
4197476, | Aug 16 1977 | Danfoss A/S | Holder for the stator winding heads of electric machines |
4616149, | Sep 28 1983 | ebm Elektrobau Mulfingen GmbH & Co. | Arrangement for joining the cable ends of a stator winding of electric motors by means of a connector |
4620425, | Aug 12 1985 | General Electric Company | Thermal protector housing |
4734602, | Feb 24 1987 | STANDARD COMPRESSORS INC | Motor protector receptacle for a refrigeration compressor |
4851725, | Feb 12 1988 | GENERAL ELECTRIC COMPANY, A NY CORP | Terminal block assembly for a leadless motor |
5175458, | Sep 04 1991 | CUMMINS POWERGEN IP, INC | Insulator for terminating electrodynamic stator coils |
5717273, | Feb 28 1996 | CUMMINS POWERGEN IP, INC | Insulating armature end turn cap |
6043584, | Apr 22 1998 | Reliance Electric Technologies, LLC | End turn phase insulator and method of using same |
DE3625109, | |||
DE4124327, | |||
FR2256573, | |||
JP2101940, | |||
JP4355638, | |||
JP9322458, | |||
JPO9321681, |
Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Feb 22 2001 | Emerson Electric Co. | (assignment on the face of the patent) | / |
Date | Maintenance Fee Events |
Feb 06 2006 | M1551: Payment of Maintenance Fee, 4th Year, Large Entity. |
Mar 15 2010 | REM: Maintenance Fee Reminder Mailed. |
Aug 06 2010 | EXP: Patent Expired for Failure to Pay Maintenance Fees. |
Date | Maintenance Schedule |
Aug 06 2005 | 4 years fee payment window open |
Feb 06 2006 | 6 months grace period start (w surcharge) |
Aug 06 2006 | patent expiry (for year 4) |
Aug 06 2008 | 2 years to revive unintentionally abandoned end. (for year 4) |
Aug 06 2009 | 8 years fee payment window open |
Feb 06 2010 | 6 months grace period start (w surcharge) |
Aug 06 2010 | patent expiry (for year 8) |
Aug 06 2012 | 2 years to revive unintentionally abandoned end. (for year 8) |
Aug 06 2013 | 12 years fee payment window open |
Feb 06 2014 | 6 months grace period start (w surcharge) |
Aug 06 2014 | patent expiry (for year 12) |
Aug 06 2016 | 2 years to revive unintentionally abandoned end. (for year 12) |